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Stress granules sense metabolic stress at the plasma membrane and potentiate recovery by storing active Pkc1

Triana Amen, Daniel Kaganovich

2020Science Signaling33 citationsDOI

Abstract

brought about by nutrient stress can be communicated to regulatory networks within the cell, we identified proteins that interact with stress granules (SGs), subcellular structures composed of proteins, and nontranslated RNAs that form when cells are stressed. We found that SG proteins interacted with components of eisosomes, which are subcortical membrane structures with a distinct lipid and protein composition. In response to starvation-triggered phosphorylation of eisosome proteins, eisosomes clustered and recruited SG components, including active Pkc1. The absence of eisosomes impaired SG formation, resulting in delayed recovery from nutrient deprivation. Thus, eisosome clustering is an example of interdomain communication in response to stress and identifies a previously unknown mechanism of SG regulation.

Topics & Concepts

MembraneOsmotic shockStress granuleCell biologyCell membraneMembrane proteinSaccharomyces cerevisiaeChemistryCellCytoplasmBiochemistryBiologyBiophysicsYeastMessenger RNATranslation (biology)GeneRNA Research and SplicingFungal and yeast genetics researchRNA and protein synthesis mechanisms
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